Can the muon anomalous magnetic moment and the B anomalies be simultaneously explained in a minimally extended Z model?

Abstract

We analyze the implications of an extended 2HDM theory in quark masses and mixings, electroweak precision tests, charged lepton flavor violating (CLFV) decays, neutrino trident production, B meson, g-2 muon and W anomalies. In the extended 2HDM theory considered in this work, the SM gauge symmetry is enlarged by the local U(1) symmetry, whereas its scalar and fermion sectors are augmented by the inclusion of a gauge singlet scalar and vectorlike fermions, respectively. Within the framework of this model, we determine the allowed ranges of the Z gauge boson mass consistent with the constraints arising from neutrino trident production, RK* anomaly, Bs meson oscillation. We conclude the RK* and muon g-2 anomalies cannot be simultaneously explained by the same new physics under all the constraints. Besides that, we found that the new physics sources, the Z and non SM scalars cannot be connected via the scalar potential. Furthermore, we have found that the model under consideration can successfully comply with the constraints arising from oblique T,S,U parameters as well as with the W mass and g-2 muon anomalies. In particular we found that the muon g-2 anomaly, whose dominant contribution arises from the one loop level scalar exchange, can be successfully accommodated within the 2σ experimentally allowed range.

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